1. Respiratory Part 2 Medical Surgical Nursing
2. Nursing Diagnosis�- Respiration Airway Clearance, ineffective
Breathing Pattern, ineffective
Gas Exchange, impaired
3. Ineffective Airway Clearance NANDA Definition:
Inability to clear secretions or obstructions from the respiratory tract to maintain airway patency
4. Ineffective Airway Clearance R/T
Inability to cough effectively
Artificial airway
Excessive or thick secretions
Infection
Obstruction
Pain
5. Ineffective Airway Clearance AMB (AEB)
Ineffective cough
Inability to remove airway secretions
Abnormal breath sounds
crackles
Abnormal respiratory rate, rhythm depth
6. Ineffective Airway Clearance Plan / Outcome / Goal
Maintain patent airway AEB
Clear breath sounds
Respiratory easy and unlabored
Normal respiratory rate
7. Ineffective Airway Clearance�Nursing interventions Assess respiratory
Rate
Depth
Rhythm
Effort
Breath sounds
V/S Lab Values
Hgb
Hct
Sputum cultures
ABG’s
Dx Tests
Pulse Oxygen Sats
Monitor respiratory, including patterns, rate, depth, and effort, Breath sounds.
Position client to optimize respiration (e.g., head of bed elevated 45 degrees and repositioned at least every 2 hours)
If the client has unilateral lung disease, alternate a semi-Fowler's position with a lateral position
Teach client to deep breath and perform controlled coughing.
Assist with clearing secretions from pharynx by offering tissues and gentle suction of the oral pharynx if necessary.
Observe sputum, noting color, odor, and volume
Encourage activity and ambulation as tolerated. If unable to ambulate client, turn client from side to side every 2 hours
Encourage increased fluid.
perform actions to decrease pain if present (e.g. splint/protect painful area during movement, administer prescribed analgesics) in order to increase the client's willingness to move, cough, and deep breathe
Administer oxygen as ordered.
Administer medications such as bronchodilators or inhaled steroids as ordered.
Provide Chest physical therapy: postural drainage, percussion, and vibration as ordered.
Refer for physical therapy or respiratory therapy for further treatment.
Monitor blood gas values and pulse oxygen saturation levels.
If the client has COPD, consider helping the client use the huff cough technique
Monitor respiratory, including patterns, rate, depth, and effort, Breath sounds.
Position client to optimize respiration (e.g., head of bed elevated 45 degrees and repositioned at least every 2 hours)
If the client has unilateral lung disease, alternate a semi-Fowler's position with a lateral position
Teach client to deep breath and perform controlled coughing.
Assist with clearing secretions from pharynx by offering tissues and gentle suction of the oral pharynx if necessary.
Observe sputum, noting color, odor, and volume
Encourage activity and ambulation as tolerated. If unable to ambulate client, turn client from side to side every 2 hours
Encourage increased fluid.
perform actions to decrease pain if present (e.g. splint/protect painful area during movement, administer prescribed analgesics) in order to increase the client's willingness to move, cough, and deep breathe
Administer oxygen as ordered.
Administer medications such as bronchodilators or inhaled steroids as ordered.
Provide Chest physical therapy: postural drainage, percussion, and vibration as ordered.
Refer for physical therapy or respiratory therapy for further treatment.
Monitor blood gas values and pulse oxygen saturation levels.
If the client has COPD, consider helping the client use the huff cough technique
8. Ineffective Airway Clearance�Nursing interventions Position: HOB elevated
Promote optimum level of activity for best possible lung expansion
Ambulate / Chair
Turn/reposition
Suction prn
9. Ineffective Airway Clearance�Nursing interventions O2 per order
Admin meds
Bronchodilators
Steroids
Enc to do Respiratory therapy exercises
Enc to do Physical therapy exercises
10. Ineffective Airway Clearance�Nursing interventions Encourage fluids
Facilitate airway clearance
Deep breathing
Breathing exercises
Incentive spirometry
Directed cough
11. Ineffective Airway Clearance�Nursing interventions Perform actions to decrease pain if present
Splint
Analgesics per order
Perform actions to decrease pain if present
splint/protect painful area during movement
administer prescribed analgesics) in order to increase the client's willingness to move, cough, and deep breathe
Perform actions to decrease pain if present
splint/protect painful area during movement
administer prescribed analgesics) in order to increase the client's willingness to move, cough, and deep breathe
12. Ineffective Airway Clearance�Nursing interventions Discourage smoking
Administer central nervous system depressants carefully
Increase activity as allowed. discourage smoking (the irritants in smoke increase mucus production, impair ciliary function, and can cause inflammation and damage to the bronchial walls)administer central nervous system depressants judiciouslyincrease activity as allowed.
discourage smoking (the irritants in smoke increase mucus production, impair ciliary function, and can cause inflammation and damage to the bronchial walls)administer central nervous system depressants judiciouslyincrease activity as allowed.
13. Ineffective breathing patterns NANDA Definition:
Inspiration and/or expiration that does not provide adequate ventilation
14. Ineffective breathing patterns R/T
COPD
Allergic reactions
Aspiration
Decreased lung compliance
Fatigue
History of smoking
15. Ineffective breathing patterns AMB
Changes in respiratory pattern from baseline
Orthopnea
Guarded respirations
16. Ineffective breathing patterns Plan / Outcome / Goal
Patient’s breathing pattern is maintained as evidenced by eupnea, normal skin color, and regular respiratory rate/pattern.
17. Ineffective breathing patterns�Interventions: Assess
Color
Resp
Rate
Depth
Effort
rhythm
breath sounds
Assess respiratory rate and depth by listening to lung sounds. Respiratory rate and rhythm changes are early warning signs of impending respiratory difficulties.�* Assess for dyspnea and quantify (e.g., note how many words per breath patient can say); relate dyspnea to precipitating factors.�o Assess for dyspnea at rest versus activity and note changes. Dyspnea that occurs with activity may indicate activity intolerance.�* Monitor breathing patterns:�o Bradypnea (slow respirations)�o Tachypnea (increase in respiratory rate)�o Hyperventilation (increase in respiratory rate or tidal volume, or both)�o Kussmaul’s respirations (deep respirations with fast, normal, or slow rate)�o Cheyne-Stokes respiration (waxing and waning with periods of apnea between a repetitive pattern)�o Apneusis (sustained maximal inhalation with pause)�o Biot’s respiration (irregular periods of apnea alternating with periods in which four or five breaths of identical depth are taken)�o Ataxic patterns (irregular and unpredictable pattern with periods of apnea)�Specific breathing patterns may indicate an underlying disease process or dysfunction. Cheyne-Stokes respiration represents bilateral dysfunction in the deep cerebral or diencephalon associated with brain injury or metabolic abnormalities. Apneusis and ataxic breathing are associated with failure of the respiratory centers in the pons and medulla.�* Note muscles used for breathing (e.g., sternocleido-mastoid, abdominal, diaphragmatic). The accessory muscles of inspiration are not usually involved in quiet breathing. These include the scalenes (attach to the first two ribs) and the sternocleidomastoid (elevates the sternum).�* Monitor for diaphragmatic muscle fatigue (paradoxical motion). Paradoxical movement of the diaphragm indicates a reversal of the normal pattern and is indicative of ventilatory muscle fatigue and/or respiratory failure. The diaphragm is the most important muscle of ventilation, normally responsible for 80% to 85% of ventilation during restful breathing.�* Note retractions or flaring of nostrils. These signify an increase in work of breathing.�* Assess position patient assumes for normal or easy breathing.�* Use pulse oximetry to monitor oxygen saturation and pulse rate. Pulse oximetry is a useful tool to detect changes in oxygenation early on; however, for CO2 levels, end tidal CO2 monitoring or arterial blood gases (ABGs) would need to be obtained.�* Monitor ABGs as appropriate; note changes. Increasing PaCO2 and decreasing PaO2 are signs of respiratory failure. As the patient begins to fail, the respiratory rate decreases and PaCO2 begins to rise.�* Monitor for changes in orientation, increased restlessness, anxiety, and air hunger. Restlessness is an early sign of hypoxia.�* Avoid high concentration of oxygen in patients with chronic obstructive pulmonary disease (COPD). Hypoxia stimulates the drive to breathe in the chronic CO2 retainer patient. When applying oxygen, close monitoring is imperative to prevent unsafe increases in the patient’s PaO2 , which could result in apnea.�* Assess skin color, temperature, capillary refill; note central versus peripheral cyanosis.�* Monitor vital capacity in patients with neuromuscular weakness and observe trends. Monitoring detects changes early.�* Assess presence of sputum for quantity, color, consistency.�* If the sputum is discolored (no longer clear or white), send sputum specimen for culture and sensitivity, as appropriate. An infection may be present. Respiratory infections increase the work of breathing; antibiotic treatment may be indicated.�* Assess ability to clear secretions. The inability to clear secretions may add to a change in breathing pattern.�* Assess for pain. Postoperative pain can result in shallow breathing.�Assess respiratory rate and depth by listening to lung sounds. Respiratory rate and rhythm changes are early warning signs of impending respiratory difficulties.* Assess for dyspnea and quantify (e.g., note how many words per breath patient can say); relate dyspnea to precipitating factors.o Assess for dyspnea at rest versus activity and note changes. Dyspnea that occurs with activity may indicate activity intolerance.* Monitor breathing patterns:o Bradypnea (slow respirations)o Tachypnea (increase in respiratory rate)o Hyperventilation (increase in respiratory rate or tidal volume, or both)o Kussmaul’s respirations (deep respirations with fast, normal, or slow rate)o Cheyne-Stokes respiration (waxing and waning with periods of apnea between a repetitive pattern)o Apneusis (sustained maximal inhalation with pause)o Biot’s respiration (irregular periods of apnea alternating with periods in which four or five breaths of identical depth are taken)o Ataxic patterns (irregular and unpredictable pattern with periods of apnea)Specific breathing patterns may indicate an underlying disease process or dysfunction. Cheyne-Stokes respiration represents bilateral dysfunction in the deep cerebral or diencephalon associated with brain injury or metabolic abnormalities. Apneusis and ataxic breathing are associated with failure of the respiratory centers in the pons and medulla.* Note muscles used for breathing (e.g., sternocleido-mastoid, abdominal, diaphragmatic). The accessory muscles of inspiration are not usually involved in quiet breathing. These include the scalenes (attach to the first two ribs) and the sternocleidomastoid (elevates the sternum).* Monitor for diaphragmatic muscle fatigue (paradoxical motion). Paradoxical movement of the diaphragm indicates a reversal of the normal pattern and is indicative of ventilatory muscle fatigue and/or respiratory failure. The diaphragm is the most important muscle of ventilation, normally responsible for 80% to 85% of ventilation during restful breathing.* Note retractions or flaring of nostrils. These signify an increase in work of breathing.* Assess position patient assumes for normal or easy breathing.* Use pulse oximetry to monitor oxygen saturation and pulse rate. Pulse oximetry is a useful tool to detect changes in oxygenation early on; however, for CO2 levels, end tidal CO2 monitoring or arterial blood gases (ABGs) would need to be obtained.* Monitor ABGs as appropriate; note changes. Increasing PaCO2 and decreasing PaO2 are signs of respiratory failure. As the patient begins to fail, the respiratory rate decreases and PaCO2 begins to rise.* Monitor for changes in orientation, increased restlessness, anxiety, and air hunger. Restlessness is an early sign of hypoxia.* Avoid high concentration of oxygen in patients with chronic obstructive pulmonary disease (COPD). Hypoxia stimulates the drive to breathe in the chronic CO2 retainer patient. When applying oxygen, close monitoring is imperative to prevent unsafe increases in the patient’s PaO2 , which could result in apnea.* Assess skin color, temperature, capillary refill; note central versus peripheral cyanosis.* Monitor vital capacity in patients with neuromuscular weakness and observe trends. Monitoring detects changes early.* Assess presence of sputum for quantity, color, consistency.* If the sputum is discolored (no longer clear or white), send sputum specimen for culture and sensitivity, as appropriate. An infection may be present. Respiratory infections increase the work of breathing; antibiotic treatment may be indicated.* Assess ability to clear secretions. The inability to clear secretions may add to a change in breathing pattern.* Assess for pain. Postoperative pain can result in shallow breathing.
18. Ineffective breathing patterns�Interventions: Position to facilitate optimum breathing patterns
HOB up
High fowlers
Turn q2hr
Cough & Deep breath
Incentive spirometer q2hrs
Increase activities as tolerated
Encourage pt to Yawn
Oxygen per MD order Therapeutic Interventions�Assess for signs and symptoms of an ineffective breathing pattern (e.g. shallow or slow respirations).
Implement measures to improve breathing pattern:
place client in a semi- to high Fowler's position unless contraindicated; position client with pillows to prevent slumping
if client must remain flat in bed, assist with position change at least every 2 hours unless contraindicated
instruct client to deep breathe or use incentive spirometer every 1 - 2 hours
perform actions to reduce chest or abdominal pain if present (e.g. splint chest/abdomen with a pillow when positioning, coughing, and deep breathing; administer prescribed analgesics) in order to increase the client's willingness to move and breathe more deeply
perform actions to decrease fear and anxiety (see Diagnosis 13, action b) in order to prevent the shallow and/or rapid breathing that can occur with fear and anxiety
assist with positive airway pressure techniques (e.g. IPPB, continuous positive airway pressure [CPAP], bilevel positive airway pressure [BiPAP], expiratory positive airway pressure [EPAP]) if ordered
instruct client to avoid intake of gas-forming foods (e.g. beans, cauliflower, cabbage, onions), carbonated beverages, and large meals in order to prevent gastric distention and additional pressure on the diaphragm
increase activity as allowed
administer central nervous system depressants judiciously; hold medication and consult physician if respiratory rate is less than 12/minute.
Consult appropriate health care provider (e.g. physician, respiratory therapist) if:
ineffective breathing pattern continues
signs and symptoms of impaired gas exchange (e.g. restlessness, irritability, confusion, significant decrease in oximetry results, decreased PaO2 and increased PaCO2 levels) are present.
�* Position patient with proper body alignment for optimal breathing pattern. If not contraindicated, a sitting position allows for good lung excursion and chest expansion.�* Ensure that oxygen delivery system is applied to the patient. The appropriate amount of oxygen is continuously delivered so that the patient does not desaturate.��An oxygen saturation of 90% or greater should be maintained. This provides for adequate oxygenation.�* Encourage sustained deep breaths by:�o Using demonstration (emphasizing slow inhalation, holding end inspiration for a few seconds, and passive exhalation)�o Using incentive spirometer (place close for convenient patient use)�o Asking patient to yawn This simple technique promotes deep inspiration.�* Evaluate appropriateness of inspiratory muscle training. This improves conscious control of respiratory muscles.�* Maintain a clear airway by encouraging patient to clear own secretions with effective coughing. If secretions cannot be cleared, suction as needed to clear secretions.�* Use universal precautions (e.g., gloves, goggles, and mask) as appropriate. If secretions are purulent, precautions should be instituted before receiving the culture and sensitivity final report. Institute appropriate isolation procedures for positive cultures (e.g., methicillin-resistant Staphylococcus aureus, tuberculosis [TB]).�* Pace and schedule activities providing adequate rest periods. This prevents dyspnea resulting from fatigue.�* Provide reassurance and allay anxiety by staying with patient during acute episodes of respiratory distress. Air hunger can produce an extremely anxious state.�* Provide relaxation training as appropriate (e.g., biofeedback, imagery, progressive muscle relaxation).�* Encourage diaphragmatic breathing for patient with chronic disease.�* Use pain management as appropriate. This allows for pain relief and the ability to deep breathe.�* Anticipate the need for intubation and mechanical ventilation if patient is unable to maintain adequate gas exchange with the present breathing pattern.�Therapeutic InterventionsAssess for signs and symptoms of an ineffective breathing pattern (e.g. shallow or slow respirations).
Implement measures to improve breathing pattern:
place client in a semi- to high Fowler's position unless contraindicated; position client with pillows to prevent slumping
if client must remain flat in bed, assist with position change at least every 2 hours unless contraindicated
instruct client to deep breathe or use incentive spirometer every 1 - 2 hours
perform actions to reduce chest or abdominal pain if present (e.g. splint chest/abdomen with a pillow when positioning, coughing, and deep breathing; administer prescribed analgesics) in order to increase the client's willingness to move and breathe more deeply
perform actions to decrease fear and anxiety (see Diagnosis 13, action b) in order to prevent the shallow and/or rapid breathing that can occur with fear and anxiety
assist with positive airway pressure techniques (e.g. IPPB, continuous positive airway pressure [CPAP], bilevel positive airway pressure [BiPAP], expiratory positive airway pressure [EPAP]) if ordered
instruct client to avoid intake of gas-forming foods (e.g. beans, cauliflower, cabbage, onions), carbonated beverages, and large meals in order to prevent gastric distention and additional pressure on the diaphragm
increase activity as allowed
administer central nervous system depressants judiciously; hold medication and consult physician if respiratory rate is less than 12/minute.
Consult appropriate health care provider (e.g. physician, respiratory therapist) if:
ineffective breathing pattern continues
signs and symptoms of impaired gas exchange (e.g. restlessness, irritability, confusion, significant decrease in oximetry results, decreased PaO2 and increased PaCO2 levels) are present.
19. Ineffective breathing patterns�Interventions: Perform actions to reduce chest or abd pain
Splint
Perform actions to decrease fear & anxiety
Instruct to avoid gas forming foods
Maintain a clean airway
Pace schedule / activities
Stay with pt. during episodes of resp. distress
20. Ineffective breathing patterns�Interventions: Education
Explain all procedures before performing
Effects of wearing restrictive clothing
Oxygen therapy, safety
About medications
Environmental factors that may worsen resp status
S&S of a “cold”
Appropriate breathing, coughing techniques
How to count respirations
Education/Continuity of Care��* Explain all procedures before performing. This decreases patient’s anxiety.�* Explain effects of wearing restrictive clothing. Respiratory excursion is not compromised.�* Explain use of oxygen therapy, including the type and use of equipment and why its maintenance is important. ratioIssues related to home oxygen use, storage, and precautions need to be addressed.�* Instruct about medications: indications, dosage, frequency, and potential side effects. Include review of metered-dose inhaler and nebulizer treatments, as appropriate.�* Review the use of at-home monitoring capabilities and refer to home health nursing, oxygen vendors, and other resources for rental equipment as appropriate.�* Explain environmental factors that may worsen patient’s pulmonary condition (e.g., pollen, second-hand smoke) and discuss possible precipitating factors (e.g., allergens and emotional stress).�* Explain symptoms of a "cold" and impending problems. A respiratory infection would increase the work of breathing.�* Teach patient or caregivers appropriate breathing, coughing, and splinting techniques. These facilitate adequate clearance of secretions.�* Teach patient how to count own respirations and relate respiratory rate to activity tolerance. Patient will then know when to limit activities in terms of his or her own limitations.�* Teach patient when to inhale and exhale while doing strenuous activities. Appropriate breathing techniques during exercise are important in maintaining adequate gas exchange.�* Assist patient or caregiver in learning signs of respiratory compromise. Refer significant other/caregiver to participate in basic life support class for CPR, as appropriate.�* Refer to social services for further counseling related to patient’s condition and give list of support groups or a contact person from the support group for the patient to talk with. Education/Continuity of Care
21. Impaired Gas Exchange NANDA Definition:
Excess or deficit in oxygenation and/or carbon dioxide elimination at the alveolar-capillary membrane
22. Impaired Gas Exchange R/T
Decreased pulmonary perfusion
Aspiration
Anesthesia�(_) Allergic response�(_) Altered level of consciousness�(_) Anxiety�(_) Aspiration�(_) Decreased lung compliance�(_) Edema of tonsils, adenoids, sinuses�(_) Excessive or thick secretions�(_) Fear�(_) Immobility�(_) Improper positioningrelated to:decreased pulmonary perfusion associated with obstruction of pulmonary arterial blood flow by the embolus and vasoconstriction resulting from the local release of vasoactive substances (e.g. serotonin, endothelin, some prostaglandins);
decreased bronchial airflow associated with bronchoconstriction resulting from:
the local release of substances such as serotonin and some prostaglandins
a compensatory response to an increase in the amount of dead space in the underperfused lung area (the compensatory bronchoconstriction also affects airways in perfused lung areas);
loss of effective lung surface associated with atelectasis if it occurs.
Anesthesia(_) Allergic response(_) Altered level of consciousness(_) Anxiety(_) Aspiration(_) Decreased lung compliance(_) Edema of tonsils, adenoids, sinuses(_) Excessive or thick secretions(_) Fear(_) Immobility(_) Improper positioningrelated to:decreased pulmonary perfusion associated with obstruction of pulmonary arterial blood flow by the embolus and vasoconstriction resulting from the local release of vasoactive substances (e.g. serotonin, endothelin, some prostaglandins);
decreased bronchial airflow associated with bronchoconstriction resulting from:
the local release of substances such as serotonin and some prostaglandins
a compensatory response to an increase in the amount of dead space in the underperfused lung area (the compensatory bronchoconstriction also affects airways in perfused lung areas);
loss of effective lung surface associated with atelectasis if it occurs.
23. Impaired Gas Exchange AMB
Dyspnea on exertion
Bending forward
Increased anterior-posterior chest diameter
Fatigue
Decreased Oxygen sats
Tendency to assume a three-point position (bending forward while supporting self by placing one hand on each knee).�(_) Pursed lip breathing with prolonged expiratory phase.�(_) Increased anteroposterior chest diameter, if chronic.�(_) Lethargy and fatigue.�(_) Increased pulmonary vascular resistance (increased pulmonary artery/right ventricular pressure).�(_) Decreased oxygen content, decreased oxygen saturation, increased PCO2.�(_) Cyanosis.Tendency to assume a three-point position (bending forward while supporting self by placing one hand on each knee).(_) Pursed lip breathing with prolonged expiratory phase.(_) Increased anteroposterior chest diameter, if chronic.(_) Lethargy and fatigue.(_) Increased pulmonary vascular resistance (increased pulmonary artery/right ventricular pressure).(_) Decreased oxygen content, decreased oxygen saturation, increased PCO2.(_) Cyanosis.
24. Impaired Gas Exchange Plan / outcomes / goals
Patient maintains optimal gas exchange as evidenced by
normal arterial blood gases (ABGs)
alert responsive mentation
no further reduction in mental status.
25. Impaired Gas Exchange�Interventions Assess for signs and symptoms of impaired gas exchange:
restlessness,
irritability
Confusion
somnolence
tachypnea, dyspnea
Central cyanosis
Lab Values
decrease in oximetry results Ongoing Assessment��* Assess respirations: note quality, rate, pattern, depth, and breathing effort. Both rapid, shallow breathing patterns and hypoventilation affect gas exchange. Shallow, "sighless" breathing patterns postsurgery (as a result of effect of anesthesia, pain, and immobility) reduce lung volume and decrease ventilation.�* Assess lung sounds, noting areas of decreased ventilation and the presence of adventitious sounds.�* Assess for signs and symptoms of hypoxemia: tachycardia, restlessness, diaphoresis, headache, lethargy, and confusion.�* Assess for signs and symptoms of atelectasis: diminished chest excursion, limited diaphragm excursion, bronchial or tubular breath sounds, rales, tracheal shift to affected side. Collapse of alveoli increases physiological shunting.�* Assess for signs or symptoms of pulmonary infarction: cough, hemoptysis, pleuritic pain, consolidation, pleural effusion, bronchial breathing, pleural friction rub, fever.�* Monitor vital signs. With initial hypoxia and hypercapnia, blood pressure (BP), heart rate, and respiratory rate all rise. As the hypoxia and/or hypercapnia becomes more severe, BP may drop, heart rate tends to continue to be rapid with arrhythmias, and respiratory failure may ensue with the patient unable to maintain the rapid respiratory rate.�* Assess for changes in orientation and behavior. Restlessness is an early sign of hypoxia. Chronic hypoxemia may result in cognitive changes such as memory changes.�* Monitor ABGs and note changes. Increasing PaCO2 and decreasing PaO2 are signs of respiratory failure. As the patient begins to fail, the respiratory rate will decrease and PaCO2 will begin to rise. Some patients, such as those with COPD, have a significant decrease in pulmonary reserves, and any physiological stress may result in acute respiratory failure.�* Use pulse oximetry to monitor oxygen saturation and pulse rate. Pulse oximetry is a useful tool to detect changes in oxygenation. Oxygen saturation should be maintained at 90% or greater. This tool can be especially helpful in the outpatient or rehabilitation setting where patients at risk for desaturation from chronic pulmonary diseases can monitor the effects of exercise or activity on their oxygen saturation levels. Home oxygen therapy can then be prescribed as indicated. Patients should be assessed for the need for oxygen both at rest and with activity. A higher liter flow of oxygen is generally required for activity versus rest (e.g., 2 L at rest, and 4 L with activity). Medicare guidelines for reimbursement for home oxygen require a PaCO2 less than 58 and/or oxygen saturation of 88% or less on room air. Oxygen delivery is then titrated to maintain an oxygen saturation of 90% or greater.�* Assess skin color for development of cyanosis. For cyanosis to be present, 5 g of hemoglobin must desaturate.�* Monitor chest x-ray reports. Chest x-rays may guide the etiological factors of the impaired gas exchange. Keep in mind that radiographic studies of lung water lag behind clinical presentation by 24 hours.�* Monitor effects of position changes on oxygenation (SaO2, ABGs, SVO2, and end-tidal CO2). Putting the most congested lung areas in the dependent position (where perfusion is greatest) potentiates ventilation and perfusion imbalances.�* Assess patient’s ability to cough effectively to clear secretions. Note quantity, color, and consistency of sputum. Retained secretions impair gas exchange.�Ongoing Assessment
26. Impaired Gas Exchange�Interventions Bed rest / pace activities
Discourage smoking
Administer
anticoagulants per order
Thrombolytic agents per order
Oxygen per order
Position to facilitate ventilation / perfusion
Suction prn
Implement measures to improve gas exchange: maintain client on bed rest to reduce oxygen demands during acute respiratory distress; increase activity gradually as allowed and tolerated
maintain oxygen therapy as ordered
perform actions to improve breathing pattern (see Diagnosis 1, action b)
discourage smoking (the carbon monoxide in smoke decreases oxygen availability and the nicotine can cause vasoconstriction and further reduce pulmonary blood flow)
perform actions to improve pulmonary blood flow:
administer anticoagulants (e.g. continuous intravenous heparin, low-molecular-weight heparin, warfarin) as ordered
prepare client for the following if planned:
injection of a thrombolytic agent (e.g. streptokinase, alteplase [tPA])
embolectomy.
Consult appropriate health care provider (e.g. respiratory therapist, physician) if signs and symptoms of impaired gas exchange persist or worsen.
Therapeutic Interventions��* Maintain oxygen administration device as ordered, attempting to maintain oxygen saturation at 90% or greater. This provides for adequate oxygenation.��Avoid high concentration of oxygen in patients with COPD. Hypoxia stimulates the drive to breathe in the chronic CO2 retainer patient. When applying oxygen, close monitoring is imperative to prevent unsafe increases in the patient’s PaO2, which could result in apnea.��NOTE: If the patient is allowed to eat, oxygen still must be given to the patient but in a different manner (e.g., changing from mask to a nasal cannula). Eating is an activity and more oxygen will be consumed than when the patient is at rest. Immediately after the meal, the original oxygen delivery system should be returned.�* For patients who should be ambulatory, provide extension tubing or portable oxygen apparatus. These promote activity and facilitate more effective ventilation.�* Position with proper body alignment for optimal respiratory excursion (if tolerated, head of bed at 45 degrees). This promotes lung expansion and improves air exchange.�* Routinely check the patient’s position so that he or she does not slide down in bed. This would cause the abdomen to compress the diaphragm, which would cause respiratory embarrassment.�* Position patient to facilitate ventilation/perfusion matching. Use upright, high-Fowler’s position whenever possible. High-Fowler’s position allows for optimal diaphragm excursion. When patient is positioned on side, the good side should be down (e.g., lung with pulmonary embolus or atelectasis should be up).�* Pace activities and schedule rest periods to prevent fatigue. Even simple activities such as bathing during bed rest can cause fatigue and increase oxygen consumption.�* Change patient’s position every 2 hours. This facilitates secretion movement and drainage.�* Suction as needed. Suction clears secretions if the patient is unable to effectively clear the airway.�* Encourage deep breathing, using incentive spirometer as indicated. This reduces alveolar collapse.�* For postoperative patients, assist with splinting the chest. Splinting optimizes deep breathing and coughing efforts.�* Encourage or assist with ambulation as indicated. This promotes lung expansion, facilitates secretion clearance, and stimulates deep breathing.�* Provide reassurance and allay anxiety:�o Have an agreed-on method for the patient to call for assistance (e.g., call light, bell).�o Stay with the patient during episodes of respiratory distress.�* Anticipate need for intubation and mechanical ventilation if patient is unable to maintain adequate gas exchange. Early intubation and mechanical ventilation are recommended to prevent full decompensation of the patient. Mechanical ventilation provides supportive care to maintain adequate oxygenation and ventilation to the patient. Treatment also needs to focus on the underlying causal factor leading to respiratory failure.�* Administer medications as prescribed. The type depends on the etiological factors of the problem (e.g., antibiotics for pneumonia, bronchodilators for COPD, anticoagulants/thrombolytics for pulmonary embolus, analgesics for thoracic pain).Implement measures to improve gas exchange: maintain client on bed rest to reduce oxygen demands during acute respiratory distress; increase activity gradually as allowed and tolerated
maintain oxygen therapy as ordered
perform actions to improve breathing pattern (see Diagnosis 1, action b)
discourage smoking (the carbon monoxide in smoke decreases oxygen availability and the nicotine can cause vasoconstriction and further reduce pulmonary blood flow)
perform actions to improve pulmonary blood flow:
administer anticoagulants (e.g. continuous intravenous heparin, low-molecular-weight heparin, warfarin) as ordered
prepare client for the following if planned:
injection of a thrombolytic agent (e.g. streptokinase, alteplase [tPA])
embolectomy.
Consult appropriate health care provider (e.g. respiratory therapist, physician) if signs and symptoms of impaired gas exchange persist or worsen.
Therapeutic Interventions
27. Impaired Gas Exchange�Interventions Educate
Pace activities
Oxygen therapy and safety
TCDB
Explain nebulizer
Refer to home health agency
Education/Continuity of Care��* Explain the need to restrict and pace activities to decrease oxygen consumption during the acute episode.�* Explain the type of oxygen therapy being used and why its maintenance is important. Issues related to home oxygen use, storage, or precautions need to be addressed.�* Teach the patient appropriate deep breathing and coughing techniques. These facilitate adequate air exchange and secretion clearance.�* Assist patient in obtaining home nebulizer, as appropriate, and instruct in its use in collaboration with respiratory therapist.�* Refer to home health services for nursing care or oxygen management as appropriate. Education/Continuity of Care
28. Influenza AKA
Flu
Highly contagious
Pathogen
Viral
Epidemic
Rapid and extensive spreading infection and affecting many individuals in an area or a population at the same time
29. FYI Influenza & its complications (primarily bacterial pneumonia) are the 8th leading cause of death in the US.
@60,000 year
30. H1N1 Newly identified stain
? Pandemic
(World-wide epidemic)
31. Mode of transmission Airborne droplet
Direct contact
32. Influenza Statistics Incubation period
Short
Onset
Rapid
Duration
Up to a week
Cough & fatigue
2-3 weeks
33. Influenza: S&S (local) Runny nose
Sore throat
Cough
Dry
Non-productive ? productive
Substernal burning
34. Influenza: S&S (systemic) Chills & fever
H/A
Malaise
Muscle aches
Fatigue & weakness
35. Older adults Higher risk of
Complications
Pneumonia
Death
36. Why are older adult more susceptible to complications of influenza? Cilia
i
Chest muscle strength
i
Chest wall
Stiffer
Cough
Less effective
37. IDT “Most URI’s are self-limiting”
38. IDT Self-care
Symptomatic relief
Prevent complications
Prevent spread
39. Dx test Throat swab
R/O streptococci
CBC
WBC normal or decreased
Vial
WBC increased
Bacterial
Chest x-ray
R/O pneumonia
40. Flu Vaccine: Is it effective? Polyvalent influenza virus vaccine
85% effective
For 1 year
1/3 of people at risk get it
41. Flu Vaccine: Who should get it? Age >50 years
Nursing home residents
Pg women
Chronically ill
Immunosuppressed
Resp. conditions
Healthcare workers
Fam. members of those at risk
42. Flu Vaccine: Who should not get it? Allergic to eggs
43. Small Group Questions What pathogen is assoc. with flu?
Identify 5 S&S of the flu
What type of isolation would you use for a client with the flu
Mary asks you if she should get the flu vaccine, how do you respond?
What priority nursing diagnosis would you give for a person with the flu?
44. COPD - overview COPD?
Chronic Obstructive Pulmonary Disease
Broad classifications of diseases
45. COPD Characterized by
airflow limitation
Irreversible
Dyspnea on exertion
Progressive
Abn. inflammatory response of the lungs to noxious particles or gases
46. Pathophysiology Noxious particles of gas ?
Inflammatory response ?
Narrowing of airway In COPD the airflow limitation is both progressive and assoc. with abnormal inflammatory response of the lungs to noxious gases. The inflammatory response occurs thorugh the airways, parenchyma and pulmonary vasculature. Because of the chronic inflammation and the body’s attempt to repair it, narrowing occurs in the small peripheral airways. In COPD the airflow limitation is both progressive and assoc. with abnormal inflammatory response of the lungs to noxious gases. The inflammatory response occurs thorugh the airways, parenchyma and pulmonary vasculature. Because of the chronic inflammation and the body’s attempt to repair it, narrowing occurs in the small peripheral airways.
47. Pathophysiology Inflammation ?
Thickening of the wall of the pulmonary capillaries
(Smoke damage & inflammatory process)
48. COPD Includes
Emphysema
Chronic bronchitis
Does not include
Asthma
49. COPD - FYI COPD 4th leading cause of death in the US
12th leading cause of disability
Death from COPD is on the rise while death from heart disease is going down
50. COPD Risk Factors for COPD
Exposure to tobacco smoke
80-90% of COPD
Passive smoking
Occupational exposure
Air pollution
51. COPD risk factors #1
Smoking
Why is smoking so bad??
? phagocytes
? cilia function
? mucus production
52. Chronic Bronchitis Disease of the airway
Definition:
cough + sputum production
> 3 months
53. Chronic Bronchitis Pathophysiology
Pollutant irritates airway ?
Inflammation
h secretion of mucus ?
Bronchial walls thicken ?
Lumen narrows
Mucus plugs airway
54. Chronic Bronchitis Plugs become areas for bacteria to grow and chronic infections which increases mucus secretions and eventually, areas of focal necrosis and fibrosis
55. Chronic Bronchitis Alveoli/bronchioles become damaged
? susceptibility to LRI
56. Emphysema Pathophysiology
Affects alveolar membrane
Destruction of alveolar wall
Loss of elastic recoil
Over distended alveoli
57. Emphysema Pathophysiology
Over distended alveoli?
Damage to adjacent pulmonary capillaries
Impaired passive expiration
58. Emphysema Impaired gas exchange
impaired expiration
Hypoxemia
h CO2
59. Emphysema Damaged pulmonary capillary bed
h pulmonary pressure ?
h work load for right ventricle ?
Right side heart failure
60. COPD �Compare and contrast Chronic Bronchitis is a disease of the ___________?
Airway
Emphysema is a disease affecting the ___________?
Alveoli
61. C.O.P.D. Risk factors, S&S, treatment, Dx, Rx
- same for Chronic Bronchitis & Emphysema
62. C.O.P.D. Clinical Manifestation (primary)
Cough
Sputum production
Dyspnea on exertion
(Secondary)
Wt. loss
Resp. infections
Barrel chest
Weight loss because: dyspnea interferes with eating, also the work of breathing is energy depleting. Weight loss because: dyspnea interferes with eating, also the work of breathing is energy depleting.
63. C.O.P.D.�Nrs. Assessment Risk factors
Past Hx / Family Hx
Pattern of development
Presence of comobidities
Current Tx
Impact
64. Dx tests ABG’s
Baseline PaO2
Rule out other diseases
CT scan
X-ray
65. C.O.P.D. �Medical Management Risk reduction
Smoking cessation!
(The only thing that slows down the progression of the disease!)
66. C.O.P.D. �Rx. therapy Primary
Bronchodilators
Corticosteriods
Secondary
Antibiotics
Mucolytic agents
Anti-tussive agents
67. Bronchodilators Action:
Increases the size of the lumen
Relieve bronchospasms
Reduce airway obstruction
? ventilation
68. Bronchodilators Examples
Albuterol (Proventil, Ventolin, Volmax)
Metaproterenol (Alupent)
Ipratropium bromide (Atrovent)
Theophylline (Theo-Dur)*
69. Glucocorticoids Action
Potent anti-inflammatory agent
70. Corticsteriods S/E
Na+ & H20 retention
Never discontinue abruptly
71. Glucocorticoids Examples
Prednisone
Methyprednisone
Beclovent
72. C.O.P.D. �Medical Management Treatment
O2
2 L/min
Pulmonary rehab
Breathing exercises
Pulmonary hygiene
73. Small Group Questions What 2 diseases are assoc. with COPD?
Describe the pathophysiology of COPD.
What effect does smoking have on the resp. system?
Differentiate between chronic bronchitis and emphysema.
What are the 3 main S&S of COPD?
What 2 classifications of meds are used to treat clients with COPD (what are their actions)?
74. Pneumonia Pathophysiology
An inflammatory process in which there is consolidation
In the alveolar spaces.
Gas exchange cannot take place in consolidated area
75. Pneumonia Causative agents
Viral pneumonia
Bacterial Pneumonia
Streptococcus pneumoniae
Pneumocystis Pneumonia
Fungal pneumonia
Radiation pneumonia
Chemical pneumonitis
Aspiration pneumonia
Hypostatis pneumonia
76. Pneumonia FYI Most common cause of death from infectious agents
66,000 deaths / year
$$$
77. Pneumonia Progression of events
Inflammation ?
h Exudate ?
i movement of O2 and CO2 ?
WBC migrate into the alveoli ?
Fill air-containing spaces?
i ventilation
Oxygen saturation?
i
78. Pneumonia: Risk factors Immunosuppressant
Smoking
Prolonged immobility
Depressed cough reflex
NPO
ETOH intoxication
Gen. anesthetic or opiod
Advanced age
79. Pneumonia: S&S TYPICAL Onset
Acute
Shaking
Chills
Fever
Cough
Productive
Sputum
Rust-colored
Purulent
80. Pneumonia: S&S TYPICAL Chest pain
Aching
Sharp
Localized
Breath sounds
Diminished
Crackles (over effected lung)
Respiratory distress
81. Pneumonia: S&S ATYPICAL “Walking pneumonia”
Milder symptoms
Fever
H/A
Muscle aches
Malaise
82. Pneumonia: S&S ATYPICAL Cough
Dry
Hacking
Non-productive
Persistent
>6 weeks
Worse at night
Self limited
83. S&S Elderly General deterioration
Weakness
Abd. Symptoms
Anorexia
Confusion
Tachycardia
Tachypnea Do Not C/O
Cough
Pain
Fever
Sputum
84. Pneumonia Dx
Sputum C&S
CBC / WBC
h
Bacteria
i
Viral
ABG’s
Pulse oximetry
Chest x-ray
What is a normal WBC count?
4,500 – 10,000 mm3
85. Pneumonia: Medications Primary
Antibiotics
Bronchodilators
Expectorant
86. Antibiotics Action
Aids immune system in controlling pathogens
Nursing consideration
Educate to take all of the meds
Not contagious after 24 hours on meds
87. Bronchodilators Dilate bronchi
Reduce bronchospasms
Improve ventilation
88. Expectorants Break up mucus
Decrease its viscosity
Liquefies mucus ?
Easier to expectorate
Take with lots of water!
89. Pneumonia: Medications Secondary
Antibiotics
Antipyretic
Analgesic
90. Pneumonia: Oxygen therapy
91. Pneumonia: Nursing Fluids
2,500 – 3,000 mL/day
Humidifier
Chest physiotherapy
TCDB
I.S.
Assess respiratory status
Position
HOB
Rest
92. Pneumonia – Nursing Interventions O2 per order
Maintaining nutrition
Gatorade
Ensure
Promoting the patients knowledge
93. Pneumonia Prevention
Vaccine
Pneumonia
Flu
Treat URI
Avoid irritants�
94. Pneumonia: Small Group Questions Describe the pathophysiology of pneumonia.
What is the difference btw typical and atypical pneumonia?
What causes pneumocystis carinii?
What lab values are associated with bacterial pneumonia? / viral pneumonia?
95. Pneumonia: Small Group Questions 5. What is Nosocomial pneumonia
6. Identify 5 risk factors for developing pneumonia
7. What medications might be administered to treat a pt. with pneumonia?
8. What nursing education would you give to a patient with pneumonia?
9. What are the gerontological considerations of caring for the elderly in regards to pneumonia?
96. Lung Cancer Pathophysiology
Carcinogen binds to the DNA and changes it?
Abnormal growth
Usually develops on the wall of the bronchial tree
97. FYI Lung Cancer is the number one cancer killer in the US
98. Lung Cancer Etiology/Contributing factors
#1
Tobacco Smoke (85%)
Second hand smoke
Carcinogens
Asbestos
Uranium
Arsenic
Nickel
Iron oxide
Radon
Coal dust
99. Lung Cancer Clinical manifestations: early
Insidious and asymptomatic
until late stages
100. People magazine http://storage.people.com/people/archive/jpgs/20060327/20060327-750-113.jpg
People magazinehttp://storage.people.com/people/archive/jpgs/20060327/20060327-750-113.jpg
People magazine
101. FYI 70% of lung CA have metastasized by the time of diagnosis
102. Lung Cancer S&S: Early
Objective symptoms
#1:
Cough
#2
Repeated respiratory tract infection
Wheezing
Dyspnea
103. Lung Cancer S&S: Late
Hemoptysis
Chest pain
Wt loss
Anemia
Anorexia
104. Lung Cancer Dx exams/procedures
X-ray
CT scan
Biopsy via Bronchoscopy
cytology
105. Lung Cancer Treatment
Surgery
Removal
Chemotherapy
Metastasis
Radiation
To shrink or reduce symptoms
106. Lung CA Priority Nrs Dx
Ineffective breathing
Ineffective Airway clearance
Ineffective Gas exchange
107. Assessment Resp assessment
Smoking hx
Lab values
S&S of complications
108. Assessment S&S of complications
Edema
H/A
Dizziness
Vision changes
Difficulty breathing
C/O pain
109. Interventions Assess q4hrs
HOB
Pulmonary hygiene
TCDB
IS
O2 per order
Suction PRN
Emotional support
110. Secondary Nrs Dx Activity intolerance
Pain
Grieving
111. Activity intolerance Document response to activity
Pulse
Resp. status
Fatigue
Planned rest periods
Increase activities gradually
Enc to remain as active as possible Allow fam. To provide assist PRN
Keep frequently used objects nearby
112. Pain Assess pain
Administer analgesics PRN
113. PAIN & CANCER “For cancer pain, maintain a continuous medication schedule using opiates, NSAIDs and other drugs as ordered”
Addiction is not a concern for the terminal cancer client; adequate pain relief that does not allow “breakthrough” pain is vital.
114. Pain Assess pain
Administer analgesics PRN
Alternative pain relief
Massage
Positioning
Distraction
Relaxation techniques
115. Pain Provide diversion activities
TV
Reading
Social events
Allow family to remain
116. Grieving Spend time with client & family
Answer questions honestly
Enc. Pt to express feelings (fear, anxiety, concerns)
Assist to understand the grief process
117. Grieving Enc other support systems
Spiritual
Social groups
Social services
Hospice
Discuss advanced directives
Living will
118. Lung Cancer Preventative measures
Stop smoking
